18

I'm trying to learn scikit-learn and Machine Learning by using the Boston Housing Data Set.

# I splitted the initial dataset ('housing_X' and 'housing_y')
from sklearn.cross_validation import train_test_split
X_train, X_test, y_train, y_test = train_test_split(housing_X, housing_y, test_size=0.25, random_state=33)

# I scaled those two datasets
from sklearn.preprocessing import StandardScaler
scalerX = StandardScaler().fit(X_train)
scalery = StandardScaler().fit(y_train)
X_train = scalerX.transform(X_train)
y_train = scalery.transform(y_train)
X_test = scalerX.transform(X_test)
y_test = scalery.transform(y_test)

# I created the model
from sklearn import linear_model
clf_sgd = linear_model.SGDRegressor(loss='squared_loss', penalty=None, random_state=42) 
train_and_evaluate(clf_sgd,X_train,y_train)

Based on this new model clf_sgd, I am trying to predict the y based on the first instance of X_train.

X_new_scaled = X_train[0]
print (X_new_scaled)
y_new = clf_sgd.predict(X_new_scaled)
print (y_new)

However, the result is quite odd for me (1.34032174, instead of 20-30, the range of the price of the houses)

[-0.32076092  0.35553428 -1.00966618 -0.28784917  0.87716097  1.28834383
  0.4759489  -0.83034371 -0.47659648 -0.81061061 -2.49222645  0.35062335
 -0.39859013]
[ 1.34032174]

I guess that this 1.34032174 value should be scaled back, but I am trying to figure out how to do it with no success. Any tip is welcome. Thank you very much.

  • 1
    I don't think you need to apply scaling on your target variable. Scaling and other feature engineering techniques are applied only on the feature vectors. – Abhinav Arora Jun 27 '16 at 18:08
25

You can use inverse_transform using your scalery object:

y_new_inverse = scalery.inverse_transform(y_new)
  • Thank you. It works. In fact (and obviously), the result is quite identical to the value of 'y_train'. – Hookstark Jun 28 '16 at 8:05
  • 1
    There's now also a meta-estimator which automatically takes care of this, see TransformedTargetRegressor – mloning Jul 3 at 12:23
1

Bit late to the game: Just don't scale your y. With scaling y you actually loose your units. The regression or loss optimization is actually determined by the relative differences between the features. BTW for house prices (or any other monetary value) it is common practice to take the logarithm. Then you obviously need to do an numpy.exp() to get back to the actual dollars/euros/yens...

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